帕累托任务推理分析揭示弥漫大 B 细胞淋巴瘤转录组数据中的细胞权衡问题

Jonatan Blais, Julie Jeukens
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摘要

癌症治疗面临的主要挑战之一是耐药克隆的选择,这导致对以前有效的疗法产生抗药性。以细胞权衡的形式识别限制表型可能性空间的弱点,可以通过同时针对参与由权衡联系在一起的不同替代表型策略的细胞过程来避免抗药性的出现。帕累托最优化理论被认为是一种框架,它可以识别生物数据中的这种权衡,因为它预测在基因表达空间等方面会出现特定的几何模式(多面体),其顶点代表专门的表型。我们在弥漫大 B 细胞淋巴瘤(DLCBL)转录组数据中测试了这种方法。正如预测的那样,数据在基因表达空间中形成了一个四面体,定义了四种特化表型(原型),这在统计学上具有非常显著的证据。这些原型明显富集了某些生物功能,并包含了在原型之间形成共享和独特元素模式的基因,如果基本功能之间的权衡是所观察到的结构的基础,那么就会出现这种情况。这些结果可以解释为反映了有氧能量生产和蛋白质合成之间的权衡,以及免疫耐受和免疫逃逸策略之间的权衡。同时以这些权衡两边的基因为靶标,是治疗应用的潜在可行途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pareto task inference analysis reveals cellular trade-offs in diffuse large B-Cell lymphoma transcriptomic data
One of the main challenges in cancer treatment is the selection of treatment resistant clones which leads to the emergence of resistance to previously efficacious therapies. Identifying vulnerabilities in the form of cellular trade-offs constraining the phenotypic possibility space could allow to avoid the emergence of resistance by simultaneously targeting cellular processes that are involved in different alternative phenotypic strategies linked by trade-offs. The Pareto optimality theory has been proposed as a framework allowing to identify such trade-offs in biological data from its prediction that it would lead to the presence of specific geometrical patterns (polytopes) in, e.g., gene expression space, with vertices representing specialized phenotypes. We tested this approach in diffuse large B-cell lymphoma (DLCBL) transcriptomic data. As predicted, there was highly statistically significant evidence for the data forming a tetrahedron in gene expression space, defining four specialized phenotypes (archetypes). These archetypes were significantly enriched in certain biological functions, and contained genes that formed a pattern of shared and unique elements among archetypes, as expected if trade-offs between essential functions underlie the observed structure. The results can be interpreted as reflecting trade-offs between aerobic energy production and protein synthesis, and between immunotolerant and immune escape strategies. Targeting genes on both sides of these trade-offs simultaneously represent potential promising avenues for therapeutic applications.
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